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Java example source code file (c1_FrameMap.hpp)

This example Java source code file (c1_FrameMap.hpp) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

address, basictypearray, bytesize, callingconvention, lir_opr, lir_oprdesc, lir_oprlist, location, location\:\:oop, location\:\:type, product, register, share_vm_c1_c1_framemap_hpp, vmreg

The c1_FrameMap.hpp Java example source code

/*
 * Copyright (c) 2000, 2013, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 *
 */

#ifndef SHARE_VM_C1_C1_FRAMEMAP_HPP
#define SHARE_VM_C1_C1_FRAMEMAP_HPP

#include "asm/assembler.hpp"
#include "c1/c1_Defs.hpp"
#include "c1/c1_LIR.hpp"
#include "code/vmreg.hpp"
#include "memory/allocation.hpp"
#include "runtime/frame.hpp"
#include "runtime/synchronizer.hpp"
#include "utilities/globalDefinitions.hpp"

class ciMethod;
class CallingConvention;
class BasicTypeArray;
class BasicTypeList;

//--------------------------------------------------------
//               FrameMap
//--------------------------------------------------------

//  This class is responsible of mapping items (locals, monitors, spill
//  slots and registers to their frame location
//
//  The monitors are specified by a consecutive index, although each monitor entry
//  occupies two words. The monitor_index is 0.._num_monitors
//  The spill index is similar to local index; it is in range 0..(open)
//
//  The CPU registers are mapped using a fixed table; register with number 0
//  is the most used one.


//   stack grow direction -->                                        SP
//  +----------+---+----------+-------+------------------------+-----+
//  |arguments | x | monitors | spill | reserved argument area | ABI |
//  +----------+---+----------+-------+------------------------+-----+
//
//  x =  ABI area (SPARC) or  return adress and link (i486)
//  ABI  = ABI area (SPARC) or nothing (i486)


class LIR_OprDesc;
typedef LIR_OprDesc* LIR_Opr;


class FrameMap : public CompilationResourceObj {
 public:
  enum {
    nof_cpu_regs = pd_nof_cpu_regs_frame_map,
    nof_fpu_regs = pd_nof_fpu_regs_frame_map,

    nof_cpu_regs_reg_alloc = pd_nof_cpu_regs_reg_alloc,
    nof_fpu_regs_reg_alloc = pd_nof_fpu_regs_reg_alloc,

    max_nof_caller_save_cpu_regs = pd_nof_caller_save_cpu_regs_frame_map,
    nof_caller_save_fpu_regs     = pd_nof_caller_save_fpu_regs_frame_map,

    spill_slot_size_in_bytes = 4
  };

#ifdef TARGET_ARCH_x86
# include "c1_FrameMap_x86.hpp"
#endif
#ifdef TARGET_ARCH_sparc
# include "c1_FrameMap_sparc.hpp"
#endif
#ifdef TARGET_ARCH_arm
# include "c1_FrameMap_arm.hpp"
#endif
#ifdef TARGET_ARCH_ppc
# include "c1_FrameMap_ppc.hpp"
#endif


  friend class LIR_OprDesc;

 private:
  static bool         _init_done;
  static Register     _cpu_rnr2reg [nof_cpu_regs];
  static int          _cpu_reg2rnr [nof_cpu_regs];

  static LIR_Opr      _caller_save_cpu_regs [max_nof_caller_save_cpu_regs];
  static LIR_Opr      _caller_save_fpu_regs [nof_caller_save_fpu_regs];

  int                 _framesize;
  int                 _argcount;
  int                 _num_monitors;
  int                 _num_spills;
  int                 _reserved_argument_area_size;
  int                 _oop_map_arg_count;

  CallingConvention*  _incoming_arguments;
  intArray*           _argument_locations;

  void check_spill_index   (int spill_index)   const { assert(spill_index   >= 0, "bad index"); }
  void check_monitor_index (int monitor_index) const { assert(monitor_index >= 0 &&
                                                              monitor_index < _num_monitors, "bad index"); }

  static Register cpu_rnr2reg (int rnr) {
    assert(_init_done, "tables not initialized");
    debug_only(cpu_range_check(rnr);)
    return _cpu_rnr2reg[rnr];
  }

  static int cpu_reg2rnr (Register reg) {
    assert(_init_done, "tables not initialized");
    debug_only(cpu_range_check(reg->encoding());)
    return _cpu_reg2rnr[reg->encoding()];
  }

  static void map_register(int rnr, Register reg) {
    debug_only(cpu_range_check(rnr);)
    debug_only(cpu_range_check(reg->encoding());)
    _cpu_rnr2reg[rnr] = reg;
    _cpu_reg2rnr[reg->encoding()] = rnr;
  }

  void update_reserved_argument_area_size (int size) {
    assert(size >= 0, "check");
    _reserved_argument_area_size = MAX2(_reserved_argument_area_size, size);
  }

 protected:
#ifndef PRODUCT
  static void cpu_range_check (int rnr)          { assert(0 <= rnr && rnr < nof_cpu_regs, "cpu register number is too big"); }
  static void fpu_range_check (int rnr)          { assert(0 <= rnr && rnr < nof_fpu_regs, "fpu register number is too big"); }
#endif


  ByteSize sp_offset_for_monitor_base(const int idx) const;

  Address make_new_address(ByteSize sp_offset) const;

  ByteSize sp_offset_for_slot(const int idx) const;
  ByteSize sp_offset_for_double_slot(const int idx) const;
  ByteSize sp_offset_for_spill(const int idx) const;
  ByteSize sp_offset_for_monitor_lock(int monitor_index) const;
  ByteSize sp_offset_for_monitor_object(int monitor_index) const;

  VMReg sp_offset2vmreg(ByteSize offset) const;

  // platform dependent hook used to check that frame is properly
  // addressable on the platform.  Used by sparc to verify that all
  // stack addresses are expressable in a simm13.
  bool validate_frame();

  static LIR_Opr map_to_opr(BasicType type, VMRegPair* reg, bool incoming);

 public:
  // Opr representing the stack_pointer on this platform
  static LIR_Opr stack_pointer();

  // JSR 292
  static LIR_Opr method_handle_invoke_SP_save_opr();

  static BasicTypeArray*     signature_type_array_for(const ciMethod* method);

  // for outgoing calls, these also update the reserved area to
  // include space for arguments and any ABI area.
  CallingConvention* c_calling_convention(const BasicTypeArray* signature);
  CallingConvention* java_calling_convention(const BasicTypeArray* signature, bool outgoing);

  // deopt support
  ByteSize sp_offset_for_orig_pc() { return sp_offset_for_monitor_base(_num_monitors); }

  static LIR_Opr as_opr(Register r) {
    return LIR_OprFact::single_cpu(cpu_reg2rnr(r));
  }
  static LIR_Opr as_oop_opr(Register r) {
    return LIR_OprFact::single_cpu_oop(cpu_reg2rnr(r));
  }

  static LIR_Opr as_metadata_opr(Register r) {
    return LIR_OprFact::single_cpu_metadata(cpu_reg2rnr(r));
  }

  FrameMap(ciMethod* method, int monitors, int reserved_argument_area_size);
  bool finalize_frame(int nof_slots);

  int   reserved_argument_area_size () const     { return _reserved_argument_area_size; }
  int   framesize                   () const     { assert(_framesize != -1, "hasn't been calculated"); return _framesize; }
  ByteSize framesize_in_bytes       () const     { return in_ByteSize(framesize() * 4); }
  int   num_monitors                () const     { return _num_monitors; }
  int   num_spills                  () const     { assert(_num_spills >= 0, "not set"); return _num_spills; }
  int   argcount              () const     { assert(_argcount >= 0, "not set"); return _argcount; }

  int oop_map_arg_count() const { return _oop_map_arg_count; }

  CallingConvention* incoming_arguments() const  { return _incoming_arguments; }

  // convenience routines
  Address address_for_slot(int index, int sp_adjust = 0) const {
    return make_new_address(sp_offset_for_slot(index) + in_ByteSize(sp_adjust));
  }
  Address address_for_double_slot(int index, int sp_adjust = 0) const {
    return make_new_address(sp_offset_for_double_slot(index) + in_ByteSize(sp_adjust));
  }
  Address address_for_monitor_lock(int monitor_index) const {
    return make_new_address(sp_offset_for_monitor_lock(monitor_index));
  }
  Address address_for_monitor_object(int monitor_index) const {
    return make_new_address(sp_offset_for_monitor_object(monitor_index));
  }

  // Creates Location describing desired slot and returns it via pointer
  // to Location object. Returns true if the stack frame offset was legal
  // (as defined by Location::legal_offset_in_bytes()), false otherwise.
  // Do not use the returned location if this returns false.
  bool location_for_sp_offset(ByteSize byte_offset_from_sp,
                              Location::Type loc_type, Location* loc) const;

  bool location_for_monitor_lock  (int monitor_index, Location* loc) const {
    return location_for_sp_offset(sp_offset_for_monitor_lock(monitor_index), Location::normal, loc);
  }
  bool location_for_monitor_object(int monitor_index, Location* loc) const {
    return location_for_sp_offset(sp_offset_for_monitor_object(monitor_index), Location::oop, loc);
  }
  bool locations_for_slot  (int index, Location::Type loc_type,
                            Location* loc, Location* second = NULL) const;

  VMReg slot_regname(int index) const {
    return sp_offset2vmreg(sp_offset_for_slot(index));
  }
  VMReg monitor_object_regname(int monitor_index) const {
    return sp_offset2vmreg(sp_offset_for_monitor_object(monitor_index));
  }
  VMReg regname(LIR_Opr opr) const;

  static LIR_Opr caller_save_cpu_reg_at(int i) {
    assert(i >= 0 && i < max_nof_caller_save_cpu_regs, "out of bounds");
    return _caller_save_cpu_regs[i];
  }

  static LIR_Opr caller_save_fpu_reg_at(int i) {
    assert(i >= 0 && i < nof_caller_save_fpu_regs, "out of bounds");
    return _caller_save_fpu_regs[i];
  }

  static void initialize();
};

//               CallingConvention
//--------------------------------------------------------

class CallingConvention: public ResourceObj {
 private:
  LIR_OprList* _args;
  int          _reserved_stack_slots;

 public:
  CallingConvention (LIR_OprList* args, int reserved_stack_slots)
    : _args(args)
    , _reserved_stack_slots(reserved_stack_slots)  {}

  LIR_OprList* args()       { return _args; }

  LIR_Opr at(int i) const   { return _args->at(i); }
  int length() const        { return _args->length(); }

  // Indicates number of real frame slots used by arguments passed on stack.
  int reserved_stack_slots() const            { return _reserved_stack_slots; }

#ifndef PRODUCT
  void print () const {
    for (int i = 0; i < length(); i++) {
      at(i)->print();
    }
  }
#endif // PRODUCT
};

#endif // SHARE_VM_C1_C1_FRAMEMAP_HPP

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